/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_vcl.hxx" #include "psputil.hxx" #include "printergfx.hxx" #include "vcl/strhelper.hxx" namespace psp { const sal_uInt32 nLineLength = 80; const sal_uInt32 nBufferSize = 16384; /* * * Bitmap compression / Hex encoding / Ascii85 Encoding * */ PrinterBmp::~PrinterBmp () { /* dont need this, but C50 does */ } /* virtual base class */ class ByteEncoder { private: public: virtual void EncodeByte (sal_uInt8 nByte) = 0; virtual ~ByteEncoder () = 0; }; ByteEncoder::~ByteEncoder () { /* dont need this, but the C50 does */ } /* HexEncoder */ class HexEncoder : public ByteEncoder { private: osl::File* mpFile; sal_uInt32 mnColumn; sal_uInt32 mnOffset; sal_Char mpFileBuffer[nBufferSize + 16]; HexEncoder (); /* dont use */ public: HexEncoder (osl::File* pFile); virtual ~HexEncoder (); void WriteAscii (sal_uInt8 nByte); virtual void EncodeByte (sal_uInt8 nByte); void FlushLine (); }; HexEncoder::HexEncoder (osl::File* pFile) : mpFile (pFile), mnColumn (0), mnOffset (0) {} HexEncoder::~HexEncoder () { FlushLine (); if (mnColumn > 0) WritePS (mpFile, "\n"); } void HexEncoder::WriteAscii (sal_uInt8 nByte) { sal_uInt32 nOff = psp::getHexValueOf (nByte, mpFileBuffer + mnOffset); mnColumn += nOff; mnOffset += nOff; if (mnColumn >= nLineLength) { mnOffset += psp::appendStr ("\n", mpFileBuffer + mnOffset); mnColumn = 0; } if (mnOffset >= nBufferSize) FlushLine (); } void HexEncoder::EncodeByte (sal_uInt8 nByte) { WriteAscii (nByte); } void HexEncoder::FlushLine () { if (mnOffset > 0) { WritePS (mpFile, mpFileBuffer, mnOffset); mnOffset = 0; } } /* Ascii85 encoder, is abi compatible with HexEncoder but writes a ~> to indicate end of data EOD */ class Ascii85Encoder : public ByteEncoder { private: osl::File* mpFile; sal_uInt32 mnByte; sal_uInt8 mpByteBuffer[4]; sal_uInt32 mnColumn; sal_uInt32 mnOffset; sal_Char mpFileBuffer[nBufferSize + 16]; Ascii85Encoder (); /* dont use */ inline void PutByte (sal_uInt8 nByte); inline void PutEOD (); void ConvertToAscii85 (); void FlushLine (); public: Ascii85Encoder (osl::File* pFile); virtual ~Ascii85Encoder (); virtual void EncodeByte (sal_uInt8 nByte); void WriteAscii (sal_uInt8 nByte); }; Ascii85Encoder::Ascii85Encoder (osl::File* pFile) : mpFile (pFile), mnByte (0), mnColumn (0), mnOffset (0) {} inline void Ascii85Encoder::PutByte (sal_uInt8 nByte) { mpByteBuffer [mnByte++] = nByte; } inline void Ascii85Encoder::PutEOD () { WritePS (mpFile, "~>\n"); } void Ascii85Encoder::ConvertToAscii85 () { if (mnByte < 4) std::memset (mpByteBuffer + mnByte, 0, (4 - mnByte) * sizeof(sal_uInt8)); sal_uInt32 nByteValue = mpByteBuffer[0] * 256 * 256 * 256 + mpByteBuffer[1] * 256 * 256 + mpByteBuffer[2] * 256 + mpByteBuffer[3]; if (nByteValue == 0 && mnByte == 4) { /* special case of 4 Bytes in row */ mpFileBuffer [mnOffset] = 'z'; mnOffset += 1; mnColumn += 1; } else { /* real ascii85 encoding */ mpFileBuffer [mnOffset + 4] = (nByteValue % 85) + 33; nByteValue /= 85; mpFileBuffer [mnOffset + 3] = (nByteValue % 85) + 33; nByteValue /= 85; mpFileBuffer [mnOffset + 2] = (nByteValue % 85) + 33; nByteValue /= 85; mpFileBuffer [mnOffset + 1] = (nByteValue % 85) + 33; nByteValue /= 85; mpFileBuffer [mnOffset + 0] = (nByteValue % 85) + 33; mnColumn += (mnByte + 1); mnOffset += (mnByte + 1); /* insert a newline if necessary */ if (mnColumn > nLineLength) { sal_uInt32 nEolOff = mnColumn - nLineLength; sal_uInt32 nBufOff = mnOffset - nEolOff; std::memmove (mpFileBuffer + nBufOff + 1, mpFileBuffer + nBufOff, nEolOff); mpFileBuffer[ nBufOff ] = '\n'; mnOffset++; mnColumn = nEolOff; } } mnByte = 0; } void Ascii85Encoder::WriteAscii (sal_uInt8 nByte) { PutByte (nByte); if (mnByte == 4) ConvertToAscii85 (); if (mnColumn >= nLineLength) { mnOffset += psp::appendStr ("\n", mpFileBuffer + mnOffset); mnColumn = 0; } if (mnOffset >= nBufferSize) FlushLine (); } void Ascii85Encoder::EncodeByte (sal_uInt8 nByte) { WriteAscii (nByte); } void Ascii85Encoder::FlushLine () { if (mnOffset > 0) { WritePS (mpFile, mpFileBuffer, mnOffset); mnOffset = 0; } } Ascii85Encoder::~Ascii85Encoder () { if (mnByte > 0) ConvertToAscii85 (); if (mnOffset > 0) FlushLine (); PutEOD (); } /* LZW encoder */ class LZWEncoder : public Ascii85Encoder { private: struct LZWCTreeNode { LZWCTreeNode* mpBrother; // next node with same parent LZWCTreeNode* mpFirstChild; // first son sal_uInt16 mnCode; // code for the string sal_uInt16 mnValue; // pixelvalue }; LZWCTreeNode* mpTable; // LZW compression data LZWCTreeNode* mpPrefix; // the compression is as same as the TIFF compression sal_uInt16 mnDataSize; sal_uInt16 mnClearCode; sal_uInt16 mnEOICode; sal_uInt16 mnTableSize; sal_uInt16 mnCodeSize; sal_uInt32 mnOffset; sal_uInt32 mdwShift; LZWEncoder (); void WriteBits (sal_uInt16 nCode, sal_uInt16 nCodeLen); public: LZWEncoder (osl::File* pOutputFile); ~LZWEncoder (); virtual void EncodeByte (sal_uInt8 nByte); }; LZWEncoder::LZWEncoder(osl::File* pOutputFile) : Ascii85Encoder (pOutputFile) { mnDataSize = 8; mnClearCode = 1 << mnDataSize; mnEOICode = mnClearCode + 1; mnTableSize = mnEOICode + 1; mnCodeSize = mnDataSize + 1; mnOffset = 32; // free bits in dwShift mdwShift = 0; mpTable = new LZWCTreeNode[ 4096 ]; for (sal_uInt32 i = 0; i < 4096; i++) { mpTable[i].mpBrother = NULL; mpTable[i].mpFirstChild = NULL; mpTable[i].mnCode = i; mpTable[i].mnValue = (sal_uInt8)mpTable[i].mnCode; } mpPrefix = NULL; WriteBits( mnClearCode, mnCodeSize ); } LZWEncoder::~LZWEncoder() { if (mpPrefix) WriteBits (mpPrefix->mnCode, mnCodeSize); WriteBits (mnEOICode, mnCodeSize); delete[] mpTable; } void LZWEncoder::WriteBits (sal_uInt16 nCode, sal_uInt16 nCodeLen) { mdwShift |= (nCode << (mnOffset - nCodeLen)); mnOffset -= nCodeLen; while (mnOffset < 24) { WriteAscii ((sal_uInt8)(mdwShift >> 24)); mdwShift <<= 8; mnOffset += 8; } if (nCode == 257 && mnOffset != 32) WriteAscii ((sal_uInt8)(mdwShift >> 24)); } void LZWEncoder::EncodeByte (sal_uInt8 nByte ) { LZWCTreeNode* p; sal_uInt16 i; sal_uInt8 nV; if (!mpPrefix) { mpPrefix = mpTable + nByte; } else { nV = nByte; for (p = mpPrefix->mpFirstChild; p != NULL; p = p->mpBrother) { if (p->mnValue == nV) break; } if (p != NULL) { mpPrefix = p; } else { WriteBits (mpPrefix->mnCode, mnCodeSize); if (mnTableSize == 409) { WriteBits (mnClearCode, mnCodeSize); for (i = 0; i < mnClearCode; i++) mpTable[i].mpFirstChild = NULL; mnCodeSize = mnDataSize + 1; mnTableSize = mnEOICode + 1; } else { if(mnTableSize == (sal_uInt16)((1 << mnCodeSize) - 1)) mnCodeSize++; p = mpTable + (mnTableSize++); p->mpBrother = mpPrefix->mpFirstChild; mpPrefix->mpFirstChild = p; p->mnValue = nV; p->mpFirstChild = NULL; } mpPrefix = mpTable + nV; } } } /* * * bitmap handling routines * */ void PrinterGfx::DrawBitmap (const Rectangle& rDest, const Rectangle& rSrc, const PrinterBmp& rBitmap) { double fScaleX = (double)rDest.GetWidth() / (double)rSrc.GetWidth(); double fScaleY = (double)rDest.GetHeight() / (double)rSrc.GetHeight(); PSGSave (); PSTranslate (rDest.BottomLeft()); PSScale (fScaleX, fScaleY); if (mnPSLevel >= 2) { if (rBitmap.GetDepth() == 1) { DrawPS2MonoImage (rBitmap, rSrc); } else if (rBitmap.GetDepth() == 8 && mbColor) { // if the palette is larger than the image itself print it as a truecolor // image to save diskspace. This is important for printing transparent // bitmaps that are disassembled into small pieces sal_Int32 nImageSz = rSrc.GetWidth() * rSrc.GetHeight(); sal_Int32 nPaletteSz = rBitmap.GetPaletteEntryCount(); if ((nImageSz < nPaletteSz) || (nImageSz < 24) ) DrawPS2TrueColorImage (rBitmap, rSrc); else DrawPS2PaletteImage (rBitmap, rSrc); } else if (rBitmap.GetDepth() == 24 && mbColor) { DrawPS2TrueColorImage (rBitmap, rSrc); } else { DrawPS2GrayImage (rBitmap, rSrc); } } else { DrawPS1GrayImage (rBitmap, rSrc); } PSGRestore (); } /* XXX does not work XXX */ void PrinterGfx::DrawBitmap (const Rectangle& rDest, const Rectangle& rSrc, const PrinterBmp& /*rBitmap*/, const PrinterBmp& /*rTransBitmap*/) { double fScaleX = (double)rDest.GetWidth() / (double)rSrc.GetWidth(); double fScaleY = (double)rDest.GetHeight() / (double)rSrc.GetHeight(); PSGSave (); PSTranslate (rDest.BottomLeft()); PSScale (fScaleX, fScaleY); PSGRestore (); } /* XXX does not work XXX */ void PrinterGfx::DrawMask (const Rectangle& rDest, const Rectangle& rSrc, const PrinterBmp &/*rBitmap*/, PrinterColor& /*rMaskColor*/) { double fScaleX = (double)rDest.GetWidth() / (double)rSrc.GetWidth(); double fScaleY = (double)rDest.GetHeight() / (double)rSrc.GetHeight(); PSGSave (); PSTranslate (rDest.BottomLeft()); PSScale (fScaleX, fScaleY); PSGRestore (); } /* * * Implementation: PS Level 1 * */ void PrinterGfx::DrawPS1GrayImage (const PrinterBmp& rBitmap, const Rectangle& rArea) { sal_uInt32 nWidth = rArea.GetWidth(); sal_uInt32 nHeight = rArea.GetHeight(); sal_Char pGrayImage [512]; sal_Int32 nChar = 0; // image header nChar += psp::getValueOf (nWidth, pGrayImage + nChar); nChar += psp::appendStr (" ", pGrayImage + nChar); nChar += psp::getValueOf (nHeight, pGrayImage + nChar); nChar += psp::appendStr (" 8 ", pGrayImage + nChar); nChar += psp::appendStr ("[ 1 0 0 1 0 ", pGrayImage + nChar); nChar += psp::getValueOf (nHeight, pGrayImage + nChar); nChar += psp::appendStr ("]", pGrayImage + nChar); nChar += psp::appendStr (" {currentfile ", pGrayImage + nChar); nChar += psp::getValueOf (nWidth, pGrayImage + nChar); nChar += psp::appendStr (" string readhexstring pop}\n", pGrayImage + nChar); nChar += psp::appendStr ("image\n", pGrayImage + nChar); WritePS (mpPageBody, pGrayImage); // image body HexEncoder* pEncoder = new HexEncoder (mpPageBody); for (long nRow = rArea.Top(); nRow <= rArea.Bottom(); nRow++) { for (long nColumn = rArea.Left(); nColumn <= rArea.Right(); nColumn++) { sal_uChar nByte = rBitmap.GetPixelGray (nRow, nColumn); pEncoder->EncodeByte (nByte); } } delete pEncoder; WritePS (mpPageBody, "\n"); } /* * * Implementation: PS Level 2 * */ void PrinterGfx::writePS2ImageHeader (const Rectangle& rArea, psp::ImageType nType) { sal_Int32 nChar = 0; sal_Char pImage [512]; sal_Int32 nDictType = 0; switch (nType) { case psp::TrueColorImage: nDictType = 0; break; case psp::PaletteImage: nDictType = 1; break; case psp::GrayScaleImage: nDictType = 2; break; case psp::MonochromeImage: nDictType = 3; break; default: break; } sal_Int32 nCompressType = mbCompressBmp ? 1 : 0; nChar += psp::getValueOf (rArea.GetWidth(), pImage + nChar); nChar += psp::appendStr (" ", pImage + nChar); nChar += psp::getValueOf (rArea.GetHeight(), pImage + nChar); nChar += psp::appendStr (" ", pImage + nChar); nChar += psp::getValueOf (nDictType, pImage + nChar); nChar += psp::appendStr (" ", pImage + nChar); nChar += psp::getValueOf (nCompressType, pImage + nChar); nChar += psp::appendStr (" psp_imagedict image\n", pImage + nChar); WritePS (mpPageBody, pImage); } void PrinterGfx::writePS2Colorspace(const PrinterBmp& rBitmap, psp::ImageType nType) { switch (nType) { case psp::GrayScaleImage: WritePS (mpPageBody, "/DeviceGray setcolorspace\n"); break; case psp::TrueColorImage: WritePS (mpPageBody, "/DeviceRGB setcolorspace\n"); break; case psp::MonochromeImage: case psp::PaletteImage: { sal_Int32 nChar = 0; sal_Char pImage [4096]; const sal_uInt32 nSize = rBitmap.GetPaletteEntryCount(); nChar += psp::appendStr ("[/Indexed /DeviceRGB ", pImage + nChar); nChar += psp::getValueOf (nSize - 1, pImage + nChar); if (mbCompressBmp) nChar += psp::appendStr ("\npsp_lzwstring\n", pImage + nChar); else nChar += psp::appendStr ("\npsp_ascii85string\n", pImage + nChar); WritePS (mpPageBody, pImage); ByteEncoder* pEncoder = mbCompressBmp ? new LZWEncoder(mpPageBody) : new Ascii85Encoder(mpPageBody); for (sal_uInt32 i = 0; i < nSize; i++) { PrinterColor aColor = rBitmap.GetPaletteColor(i); pEncoder->EncodeByte (aColor.GetRed()); pEncoder->EncodeByte (aColor.GetGreen()); pEncoder->EncodeByte (aColor.GetBlue()); } delete pEncoder; WritePS (mpPageBody, "pop ] setcolorspace\n"); } break; default: break; } } void PrinterGfx::DrawPS2GrayImage (const PrinterBmp& rBitmap, const Rectangle& rArea) { writePS2Colorspace(rBitmap, psp::GrayScaleImage); writePS2ImageHeader(rArea, psp::GrayScaleImage); ByteEncoder* pEncoder = mbCompressBmp ? new LZWEncoder(mpPageBody) : new Ascii85Encoder(mpPageBody); for (long nRow = rArea.Top(); nRow <= rArea.Bottom(); nRow++) { for (long nColumn = rArea.Left(); nColumn <= rArea.Right(); nColumn++) { sal_uChar nByte = rBitmap.GetPixelGray (nRow, nColumn); pEncoder->EncodeByte (nByte); } } delete pEncoder; } void PrinterGfx::DrawPS2MonoImage (const PrinterBmp& rBitmap, const Rectangle& rArea) { writePS2Colorspace(rBitmap, psp::MonochromeImage); writePS2ImageHeader(rArea, psp::MonochromeImage); ByteEncoder* pEncoder = mbCompressBmp ? new LZWEncoder(mpPageBody) : new Ascii85Encoder(mpPageBody); for (long nRow = rArea.Top(); nRow <= rArea.Bottom(); nRow++) { long nBitPos = 0; sal_uChar nBit = 0; sal_uChar nByte = 0; for (long nColumn = rArea.Left(); nColumn <= rArea.Right(); nColumn++) { nBit = rBitmap.GetPixelIdx (nRow, nColumn); nByte |= nBit << (7 - nBitPos); if (++nBitPos == 8) { pEncoder->EncodeByte (nByte); nBitPos = 0; nByte = 0; } } // keep the row byte aligned if (nBitPos != 0) pEncoder->EncodeByte (nByte); } delete pEncoder; } void PrinterGfx::DrawPS2PaletteImage (const PrinterBmp& rBitmap, const Rectangle& rArea) { writePS2Colorspace(rBitmap, psp::PaletteImage); writePS2ImageHeader(rArea, psp::PaletteImage); ByteEncoder* pEncoder = mbCompressBmp ? new LZWEncoder(mpPageBody) : new Ascii85Encoder(mpPageBody); for (long nRow = rArea.Top(); nRow <= rArea.Bottom(); nRow++) { for (long nColumn = rArea.Left(); nColumn <= rArea.Right(); nColumn++) { sal_uChar nByte = rBitmap.GetPixelIdx (nRow, nColumn); pEncoder->EncodeByte (nByte); } } delete pEncoder; } void PrinterGfx::DrawPS2TrueColorImage (const PrinterBmp& rBitmap, const Rectangle& rArea) { writePS2Colorspace(rBitmap, psp::TrueColorImage); writePS2ImageHeader(rArea, psp::TrueColorImage); ByteEncoder* pEncoder = mbCompressBmp ? new LZWEncoder(mpPageBody) : new Ascii85Encoder(mpPageBody); for (long nRow = rArea.Top(); nRow <= rArea.Bottom(); nRow++) { for (long nColumn = rArea.Left(); nColumn <= rArea.Right(); nColumn++) { PrinterColor aColor = rBitmap.GetPixelRGB (nRow, nColumn); pEncoder->EncodeByte (aColor.GetRed()); pEncoder->EncodeByte (aColor.GetGreen()); pEncoder->EncodeByte (aColor.GetBlue()); } } delete pEncoder; } } /* namespace psp */